睡莲属62个栽培种花朵挥发性成分GC-MS分析北大核心CSCD

为了解睡莲花朵的致香物质,利用气相色谱-质谱法对62个栽培种花朵的挥发性成分进行了研究。结果表明,共检测出72种挥发性成分,以烯烃类(26种)、烷烃类(11种)和醇类(9种)较多,其中花香成分有53种(73.60%)。40个热带睡莲花朵中共检测出56种挥发性成分,其中花香成分39种;22个耐寒睡莲品种花朵共检测出37种挥发性成分,其中花香成分27种。花香成分中主要致香物质有乙酸苄酯、顺式-罗勒烯、苯甲醇、金合欢烯、月桂烯、柠檬烯、苯甲醛、α-异松油稀、α-蒎烯、肉桂醇和β-丁香醇等。利用组内联接余弦的方法,分别根据挥发性成分和花香成分,62个睡莲栽培种(品种)可分成3和4组。这为睡莲香气物质的开发利用及与传粉动物的协同进化研究提供了基础资料。     

枇杷品种香甜和解放钟及两者杂交子代优系果实香气成分分析

采用顶空固相微萃取和气质联用技术,分析测定了果实无明显香味的枇杷品种解放钟和香味明显的品种香甜及其正反交子代中香味明显的优系香钟11号和钟香25号的果肉香气成分。结果表明,4个枇杷品种(系)共检测出11类91种香气成分,其中萜类物质D-柠檬烯相对含量最高(62.59%~68.32%),其次是醛类物质(12.53%~18.15%);亲本香甜香气成分种类最多(62种)、解放钟最少(44种),子代香钟11号、钟香25号介于双亲之间,香甜与2个子代共有成分为38种和36种,解放钟与2个子代共有成分为27种和26种,子代香气成分更多遗传自香甜;主要特征香气成分有D-柠檬烯、(E)-2-已烯醛、正辛醛、正己醛、乙酸苏合香酯、2-甲基丁酸甲酯、庚酸烯丙酯、2-甲基丁酸乙酯等;并讨论了解放钟果肉香味不明显可能的原因。     

广东鸟屎榄果实挥发性成分的HS-SPME-GC-MS分析

采用顶空固相微萃取–气相色谱–质谱联用法(HS-SPME-GC-MS)分析鸟屎榄(Canarium pimela)果实的挥发性成分,并通过面积归一法计算各成分的相对含量。结果显示,从鸟屎榄中鉴定出48种挥发性成分,占挥发性成分总量的93.30%,主要有α-蒎烯(30.17%)、对伞花烃(11.84%)、α-水芹烯(8.72%)和β-石竹烯(8.02%)等。对挥发性成分的香味物质分析发现,该果实共涵盖22种香型,其中松柏香、柑橘香和木香等香味载荷大,是构成鸟屎榄果实的主要香韵。     

黄檗的开发与利用

一、概述黄檗(Phellodendron Amurense Rupr)又名黄柏,黄菠萝,属云香科。落叶乔木。黄菠萝材质具有软硬适中,洁度好,纹理美观,易于加工等特点,是建筑、造船、车箱、胶合板、家俱等良好用材。树皮的木栓层很厚,是加工绝缘体、救生用具、软木塞等的原料。内皮晒干后直接入中药,具有泻水去热,健胃等作用。除此之外,浑江市科学技术研究所在长白山芳香植物开发利用研究中发现该树的浆果中含有特殊香味的挥发油。将黄菠萝果经水蒸汽蒸馏,可得精油,该精油含有大量的月桂烯,而月桂烯是合成香料的重要中间体,这一研究的结果,不仅为合理开发利用该树种找到新的途径,又为香料工业的发展提供了又一宝贵的新原料。     

链霉菌CB02959中四霉素及四烯菌素的鉴定及培养基优化

【背景】四霉素(Tetramycin)和四烯菌素(Tetrin)是具有广谱抗真菌活性的四烯大环内酯类抗生素。链霉菌CB02959是一株雷纳霉素(Leinamycin)类化合物的潜在产生菌株,利用antiSMASH分析其基因组发现该菌株含有一个纳他霉素(Natamycin)类四烯大环内酯化合物的生物合成基因簇。【目的】对Streptomyces sp. CB02959中次级代谢产物进行研究,确定其是否可以产生四烯大环内酯化合物,对其发酵产物进行分离和结构鉴定,并进行初步的发酵优化以提高产量。【方法】基于生物信息学预测和高分辨质谱数据,推测CB02959中多烯化合物的结构;在不同发酵培养基中培养CB02959,确定适合大规模发酵的培养基;敲除tetrA基因以确定目标基因簇和四烯大环内酯化合物产生的相关性;分离和鉴定CB02959产生的主要代谢物的结构;通过改变培养基中葡萄糖、麦芽提取物和胰蛋白胨的含量,提高四烯大环内酯化合物的产量。【结果】通过对CB02959中纳他霉素类化合物生物合成基因簇的分析及16S rRNA基因序列的进化树分析,推测CB02959可能是一株新的四霉素和四烯菌素产生菌;在YEME发酵培养基中对CB02959进行大规模发酵,分离得到4个化合物,鉴定为四霉素A (1)、四霉素B (2)、四烯菌素A (3)、四烯菌素B (4);最后通过培养基的初步优化,将化合物1–4的产量分别提高至208.1、100.0、1 315.6、109.9 mg/L。【结论】通过基因组挖掘策略发现了一株新的四霉素和四烯菌素产生菌链霉菌CB02959,并通过培养基优化提升了其四烯大环内酯化合物的产量,此发现为这类抗真菌天然产物的后续开发奠定了基础。     

增香细菌HD-7的鉴定及香气成分分析

产香微生物的研究对天然香料的绿色生产具有深远的意义。本文从醇化中期的烟叶上分离得到一株细菌HD-7,根据形态学、生理生化以及16S rRNA基因序列等特征,对产香菌株HD-7进行了初步鉴定,并利用气相色谱-质谱(GC-MS)联用技术分析其发酵液的成分。结果表明,菌株HD-7初步被鉴定为短小芽孢杆菌(Bacillus pumilus);其GC-MS检测出的物质中含有较多的香气物质,主要的增香成分有丙酸乙酯,乙酸,乙酸丙酯及3-羟基-2-丁酮(乙偶姻)等,其含量分别占25.56%,12.68%,6.80%,4.86%。其中丙酸乙酯及3-羟基-2-丁酮等都是广泛使用的香料。产香细菌HD-7在生产香料上具有很大的研究价值。     

耐高温亚硝酸盐降解菌的分离、鉴定及降低雪茄烟叶亚硝胺的应用

【背景】烟草特有亚硝胺(tobacco-specific nitrosamines, TSNAs)是烟草于调制和发酵阶段产生的一类致癌物质,由烟草生物碱与氮氧化物发生亚硝化反应生成,生物碱和亚硝酸盐是TSNAs的直接前体物质。【目的】发掘适用雪茄高温发酵且显著降低TSNAs形成与积累的微生物。【方法】以TSNAs前体物质亚硝酸盐的高效降解为目标,对从雪茄烟叶分离得到的烟草源微生物菌株进行高温培养、亚硝酸盐降解及亚硝酸盐耐受能力研究,得到可于50℃高效降解亚硝酸盐及耐受高浓度亚硝酸盐的微生物菌株,将菌株应用于雪茄烟叶高温发酵35 d,对发酵前后亚硝酸盐、TSNAs、常规化学成分和中性香味成分含量进行测定,分析菌株在雪茄烟叶发酵中对TSNAs含量及烟叶品质的影响。【结果】获得了3株于50℃高效降解亚硝酸盐的菌株NY7、NY8和NY9,分别鉴定为莫海威芽孢杆菌(Bacillus mojavensis) NY7、耐盐芽孢杆菌(Bacillus halotolerans) NY8和枯草芽孢杆菌(Bacillus subtilis) NY9,其中B. halotolerans NY8亚硝酸盐降解能...     

云南泡梨中乳酸菌的分离鉴定及其应用

【背景】泡梨是云南省常见的一种腌渍水果,在云南加工食用已经有一百多年的历史,因其味道酸甜可口、风味独特而深受人们喜爱,而目前对泡梨中微生物种群的系统分析和发酵原理的研究尚未见报道。【目的】研究乳酸菌在云南泡梨中的分布及应用,阐明乳酸菌种类对泡梨发酵中风味物质的影响。【方法】从云南省4个不同地区采集12份泡梨样品,经菌落菌体形态、生理生化特性和16SrRNA基因序列分析进行菌种分离与鉴定。利用分离的乳酸菌为菌种进行泡梨的制备,采用GC-MS技术对人工接种的复合乳酸菌发酵与自然发酵泡梨进行风味物质的分析与感官评价。【结果】分离鉴定出79株植物乳杆菌(Lactobacillus plantarum)、 3株类植物乳杆菌(Lactobacillus paraplantarum)、1株戊糖乳杆菌(Lactobacillus pentosus)、1株干酪乳杆菌(Lactobacillus casei)、2株副干酪乳杆菌(Lactobacillus paracasei)和1株短乳杆菌(Lactobacillus brevis),植物乳杆菌为泡梨发酵中的优势菌。将分离所得乳酸菌用于泡梨制备的结果表明,乳酸菌使泡梨的发酵时间缩短5d且品质更优,分析其中的风味物质发现接种乳酸菌发酵泡梨风味物质更丰富,其中酯类和醇类远多于自然发酵泡梨。【结论】云南泡梨中含有丰富的乳酸菌,选用分离出的优势乳酸菌作为复合乳酸菌用于泡梨发酵获得色泽、口感更好的泡梨,且发酵周期更短,风味物质更丰富。该研究对泡梨制备工艺和进一步标准化生产均具有重要意义。     

鱼腥草挥发油化学成份的研究

本文报道用气相色谱-质谱联用,结合成份系统分离和薄层析,对国产鱼腥草挥发油成份进行了研究,鉴定了4个单萜烯——α-蒎烯(α-pinene)、莰烯(camphene)、月桂烯(myrcene)和 d-柠檬烯(d-liraonene);2个含氧单萜化合物——芳樟醇(linalool)和乙酸龙脑酯(bornylacetate);1个倍半萜——丁香烯(caryophyllene);3个醛酮化合物——甲基正壬基酮(2-undecanone)、癸酰乙醛(decanoyl acetaldehyde)和月桂醛(dodecanaldehyde)等10个成份。其中莰烯、乙酸龙脑酯和丁香烯系首次在鱼腥草中发现。研究证明,我国广东产鱼腥草全草挥发油的成份与国外报道的日本产鱼腥草地上部分挥发油有较大的差别。癸酰乙醛、芳樟醇、α-蒎烯和甲基正壬基酮为挥发油中的抗菌有效成份。     

大花栀子植物挥发物成分测定及其日变化分析

为探究大花栀子植物挥发物成分组成及其一天内早、中、晚的差异,采用热脱附气质联用技术对其进行香气成分的分析。结果表明:全天从其花朵中共鉴定出62种成分,主要为萜烯类、酯类、醇类物质,且不同时间其成分差异显著,如早、中、晚3个时间段,β-蒎烯相对含量分别为1.93%、1.69%、8.81%,顺式-β-罗勒烯分别为28.22%、4.35%、16.47%。3-蒈烯(3.45%)、异丁子香酚(0.21%)等只在早上检出;月桂烯(0.38%)、伞花烃(2.46%)等只在晚上检出;芳樟醇、金合欢烯等在早上和午间两个时间段相对含量较高,而在晚上却未检测出。从植物VOCs角度结合其日变化动态,为大花栀子园林配置及其综合开发利用提供理论依据。     

虫药蜣螂对灵芝发酵物风味组成的影响

采用顶空-气相色谱-质谱联用对虫药蜣螂和添加蜣螂发酵后的灵芝发酵物的风味物质进行了测定,进而分析了添加蜣螂对灵芝发酵物风味组成的影响。结果表明,虫药蜣螂和灵芝发酵物(添加蜣螂)中分别含有40和30多种风味物质。添加蜣螂发酵后,灵芝发酵物跟对照相比新出现了5种风味物质,分别为苯甲醛、α-松油醇、苯乙醇、唑苯并噻和桃金娘烯醇。其中α-松油醇、苯乙醇和唑苯并噻是蜣螂中的风味成分,苯甲醛和桃金娘烯醇为新产生成分。所有5种风味物质均为食品香料物质。蜣螂中其它风味成分经灵芝发酵转化或降解后,未出现在灵芝发酵物中。因此,添加蜣螂发酵对灵芝发酵物的风味无不良影响。结果还提示灵芝细胞可生物转化或降解虫药蜣螂中的部分风味物质。     

The effect of polysaccharide-degrading wine yeast transformants on the efficiency of wine processing and wine flavour

Commercial polysaccharase preparations are applied to winemaking to improve wine processing and quality. Expression of polysaccharase-encoding genes in Saccharomyces cerevisiae allows for the recombinant strains to degrade polysaccharides that traditional commercial yeast strains cannot. In this study, we constructed recombinant wine yeast strains that were able to degrade the problem-causing grape polysaccharides, glucan and xylan, by separately integrating the Trichoderma reesei XYN2 xylanase gene construct and the Butyrivibrio fibrisolvens END1 glucanase gene cassette into the genome of the commercial wine yeast strain S. cerevisiae VIN13. These genes were also combined in S. cerevisiae VIN13 under the control of different promoters. The strains that were constructed were compared under winemaking conditions with each other and with a recombinant wine yeast strain expressing the endo-beta-1,4-glucanase gene cassette (END1) from B. fibrisolvens and the endo-beta-1,4-xylanase gene cassette (XYN4) from Aspergillus niger, a recombinant strain expressing the pectate lyase gene cassette (PEL5) from Erwinia chrysanthemi and the polygalacturonase-encoding gene cassette (PEH1) from Erwinia carotovora. Wine was made with the recombinant strains using different grape cultivars. Fermentations with the recombinant VIN13 strains resulted in significant increases in free-flow wine when Ruby Cabernet must was fermented. After 6 months of bottle ageing significant differences in colour intensity and colour stability could be detected in Pinot Noir and Ruby Cabernet wines fermented with different recombinant strains. After this period the volatile composition of Muscat d'Alexandria, Ruby Cabernet and Pinot Noir wines fermented with different recombinant strains also showed significant differences. The Pinot Noir wines were also sensorial evaluated and the tasting panel preferred the wines fermented with the recombinant strains.     

小地老虎食诱剂糖醋酒液配方筛选及发酵增效作用

【目的】为筛选和规范诱集小地老虎Agrotis ipsilon成虫的最佳糖醋酒液配方及最佳发酵时间,确定发酵液中的挥发物成分。【方法】优选以单一纯物质糖、醋、酒和水进行混配的配方A, B, C和D, 其配比分别为蔗糖(g)∶乙酸(mL)∶无水乙醇(mL)∶纯水(mL)(m/v/v/v)=3∶1∶3∶80, 3∶1∶3∶160, 3∶1∶6∶80和1∶1∶3∶80及常见配方E［白糖(g)∶白醋(mL)∶白酒(mL)∶自来水(mL)= 6∶3∶1∶10(m/v/v/v)］,分别并采用Y型嗅觉仪及GC-MS测试和分析小地老虎成虫对发酵1~15 d后的糖醋酒液的趋性及发酵液中的挥发物成分。【结果】趋性试验结果表明,糖醋酒液B配方对小地老虎诱集效果显著优于A, C, D和E配方,C配方次之。小地老虎成虫对B和C这两种配方发酵8 d发酵液的选择反应率均显著高于对未发酵及发酵5 d和7 d外的其他发酵时间发酵液的选择反应率。挥发物成分组成分析结果显示,糖醋酒液B配方发酵8 d发酵液的挥发物共有41种化合物,主要包括17种烃类化合物、8种醛类化合物、2种酮类化合物、4种醇类化合物、5种酯类化合物和5种醚类化合物。而且发酵8 d的糖醋酒液B配方与其未发酵以及发酵4 d和发酵12 d的糖醋酒液B配方之间的挥发物成分差异较大。【结论】优选并明确单一物质糖、醋、酒和水进行混配的小地老虎食诱剂配方(3∶1∶3∶160, m/v/v/v),其糖醋酒液通过发酵可以产生增效作用,最佳发酵时间为8 d。     

Effect of different fermentation conditions on the kinetic parameters and production of volatile compounds during the elaboration of a prickly pear distilled beverage

An experimental design considering thermal treatment of must, yeast strain, prickly pear variety and degree of ripeness was chosen to evaluate the fermentation behavior and generation of volatile compounds, during the elaboration of a distilled beverage from prickly pear. Four Mexican prickly pear varieties were characterized physically and two of them were selected for fermentation studies. The thermal treatment of the must showed the highest statistical influence on fermentation behavior and production of volatile compounds, followed by prickly pear variety, then yeast strain and finally the degree of ripeness was the least statistically significant factor. The growth rate increased when the thermal treatment was applied whereas the ethanol production rate and alcoholic efficiency were unaffected. The results also suggested that thermal treatment was effective for inhibition of microbial contamination. As regards volatile compounds production, acetic acid and methanol decreased while other volatiles increased when the thermal treatment was applied. Despite the influence of thermal treatment, prickly pear variety strongly influences the volatile profile of fermented musts.     

小刺猴头菌发酵液小分子指纹图谱与多糖含量相关性研究

试验研究了小刺猴头菌发酵液小分子指纹图谱与多糖含量的相关性。在小刺猴头菌摇床培养发酵液整个发酵周期内取得的样品经石油醚、二氯甲烷和乙酸乙酯依次萃取,HPLC检测分析。选择二氯甲烷层的3种小分子物质含量为主要研究对象,通过SAS软件和SIMCA-P 11.5软件对其与发酵液多糖进行相关性分析。结果表明:发酵液二氯甲烷层的3,4,5号峰小分子与发酵液多糖在含量变化上呈极显著相关(P<0.01)。     

Mixed culture polyhydroxyalkanoate (PHA) production from volatile fatty acid (VFA)-rich streams: effect of substrate composition and feeding regime on PHA productivity, composition and properties

In this study, the possibility of manipulating biopolymer composition in mixed culture polyhydroxyalkanoate (PHA) production from fermented molasses was assessed by studying the effects of substrate volatile fatty acid (VFA) composition and feeding regime (pulse wise versus continuous). It was found that the use of a continuous feeding strategy rather than a pulse feeding strategy can not only help mitigate the process constraints of the pulse-feeding strategy (resulting in higher specific and volumetric productivities) but also be used as means to broaden the range of polymer structures. Continuous feeding increased the hydroxyvalerate content by 8% relatively to that obtained from the same feedstock using pulse wise feeding. Therefore, the feeding strategy can be used to manipulate polymer composition. Furthermore, the range of PHA compositions, copolymers of P(HB-co-HV) with HV fraction ranging from 15 to 39%, obtained subsequently resulted in different polymer properties. Increasing HV content resulted in a decrease of the average molecular weight, the glass transition and melting temperatures and also in a reduction in the crystallinity degree from a semi-crystalline material to an amorphous matrix.     

Volatile compounds produced by Lactobacillus fermentum,Saccharomyces cerevisiae and Candida krusei in single starter culture fermentations of Ghanaian maize dough

AIMS: To identify and compare the volatile compounds associated with maize dough samples prepared by spontaneous fermentation and by the use of added starter cultures in Ghana. METHODS AND RESULTS: The starter cultures examined were Lactobacillus fermentum, Saccharomyces cerevisiae and Candida krusei. For identification of aroma volatiles, extracts by the Likens-Nickerson simultaneous distillation and extraction technique were analysed by gas chromatography-mass spectrometry (GC-MS) and using a trained panel of four judges by GC-Olfactometry (GC-sniffing). Compounds identified by GC-MS in maize dough samples after 72 h of fermentation included 20 alcohols, 22 carbonyls, 11 esters, seven acids, a furan and three phenolic compounds. Of the total 64 volatile compounds, 51 were detected by GC-sniffing as contributing to the aroma of the different fermented dough samples. Spontaneously fermented maize dough was characterized by higher levels of carbonyl compounds while fermentations with added L. fermentum recorded the highest concentration of acetic acid. S. cerevisiae produced higher amounts of fusel alcohols and increasing levels of esters with fermentation time and C. krusei showed similarity to L. fermentum with lower levels of most volatiles identified. CONCLUSION: The present study has given a detailed picture of the aroma compounds in fermented maize and demonstrated that the predominant micro-organisms in fermented maize dough can be used as starter cultures to modify the aroma of fermented maize dough. SIGNIFICANCE AND IMPACT OF THE STUDY: The study has documented the advantage of using starter cultures in African traditional food processing and provided a scientific background for introducing better controlled fermentations.     

液质发酵食品中微生物群落及与乳酸菌间相互作用研究进展

液质发酵食品发酵过程中微生物组成复杂,复杂的微生物发酵体系会影响微生物的生长和代谢,继而改变微生物的群落结构与功能,最终影响液质发酵食品的品质。乳酸菌在食品发酵中对形成风味物质、提高营养价值、抑制腐败菌生长具有重要的作用。本文主要对近年来食醋、酱油和饮料酒等液质发酵食品中微生物群落及与乳酸菌间相互作用关系进行综述,了解液质发酵食品在发酵过程中微生物群落结构和群落中乳酸菌与其他微生物的相互作用类型,探讨乳酸菌在发酵过程中的功能以及乳酸菌与其他微生物之间的相互作用机制。     

Arginine and ornithine catabolism by Clostridium botulinum

Clostridium botulinum 62-A was shown to catabolize l-arginine via citrulline to ornithine, NH(3), and CO(2). The individual enzymes of the dihydrolase system were all demonstrated in extracts of cells, spores, and germinated spores. There was no liberation of urea from l-arginine, so no functional arginase enzyme is present, but there was some transamidinase activity in cell extracts. l-Ornithine was degraded at a significant rate by cells grown in an l-ornithine-supplemented medium; it was partially decarboxylated to putrescine and partially fermented to NH(3), CO(2), volatile acids, and delta-aminovaleric acid. Results from the fermentation of l-ornithine-C(14), -1-C(14), and -2-C(14) demonstrated that essentially all of the CO(2) was derived from carbon 1, and volatile acids from carbons 2 to 5. Assays for the products of l-ornithine-C(14) fermentation revealed that the volatile acids consisted of acetate, propionate, valerate, and butyrate (in order of decreasing concentrations), and that delta-amino-valerate was the primary reduced product. A small amount of citrulline was formed during the fermentation. The carbon and redox balances indicated that l-ornithine is fermented as a single substrate. Preliminary experiments demonstrated that the fermentation of l-ornithine is carried out by cell extracts with the production of volatile acids.     

The volatile fraction of herbal teas

The use of herbal teas, infusions or tisanes in folk medicine, medicinal phytotherapy as well as for food purposes is still very popular. In classical phytotherapy the active principles of herbal teas are often attributed to their volatile constituents. On the other hand, safety concerns could arise from volatiles as ingredients of infusions. In any case, information on the aromatic composition and volatile fraction of herbal teas is limited. There is a lack of qualitative and quantitative data on the volatile compounds in infusions as well as on the changes of volatile composition during the tea preparation process. For isolation of the volatile compounds from infusions several methods like liquid–liquid extraction, hydrodistillation or solid phase micro extraction have been used. Primarily, the composition has been determined by GC-FID or GC–MS analysis, in exceptional cases by HPLC-PDA or HPLC–MS analysis. The profile of the volatile fraction of herbal teas classified by chemical functionalities of the compounds (hydrocarbons, oxides, alcohols/ethers, aldehydes/ketones, acids/esters) differs from the profile of the corresponding genuine essential oil. Remarkable are losses of hydrocarbons in infusions. This review will cover the phytochemical research that has been carried out on the volatiles of herbal teas and will focus on results of the volatile fraction especially from rosemary (Rosmarinus officinalis), fennel (Foeniculum vulgare subsp. vulgare), lavender (Lavandula angustifolia), thyme (Thymus vulgaris) and chamomile (Matricaria recutita) infusions.